| 1 - 2 |
3D printing makes piezoelectrics smart
Sealy C |
| 2 - 3 |
New nanotube comes with built-in holes
Sealy C |
| 3 - 4 |
Nanographenes 'zip-up' on nonmetallic surfaces
Sealy C |
| 5 - 6 |
Oxide overcoat boosts nanoparticle catalysts
Sealy C |
| 7 - 9 |
The rise of private-public collaboration in nanotechnology
Zingg R, Fischer M |
| 10 - 12 |
Can microbes feed on environmental carbon nanomaterials?
Kang S, Zhu Y, Chen M, Zeng GM, Li ZW, Zhang C, Xu PA |
| 13 - 26 |
Liquid bridge induced assembly (LBIA) strategy: Controllable one-dimensional patterning from small molecules to macromolecules and nanomaterials
Yan CZ, Su B, Shi YS, Jiang L |
| 27 - 37 |
A review of graphene-based 3D van der Waals hybrids and their energy applications
Wang HF, Tang C, Zhang Q |
| 38 - 67 |
Stimuli-responsive nanotheranostics based on lanthanide-doped upconversion nanoparticles for cancer imaging and therapy: current advances and future challenges
Wang YH, Song SY, Zhang ST, Zhang HJ |
| 68 - 84 |
Exploiting lanthanide-doped upconversion nanoparticles with core/shell structures
Fan Y, Liu L, Zhang F |
| 85 - 98 |
Clinical cancer nanomedicine
Wolfram J, Ferrari M |
| 99 - 121 |
Nanostructured metallic transition metal carbides, nitrides, phosphides, and borides for energy storage and conversion
Dinh KN, Liang QH, Du CF, Zhao J, Tok ALY, Mao H, Yan QY |
| 122 - 134 |
Interface engineering for two-dimensional semiconductor transistors
Jiang B, Yang ZY, Liu XQ, Liu Y, Liao L |
| 135 - 155 |
Biocompatible and biodegradable inorganic nanostructures for nanomedicine: Silicon and black phosphorus
Qiu M, Singh A, Wang D, Qu JL, Swihart M, Zhang H, Prasad PN |
| 156 - 156 |
3D printed bionic nanodevices (vol 11, pg 330, 2016)
Kong YL, Gupta MK, Johnson BN, McAlpine MC |
